CN110026849B

CN110026849B - Glass deckle edge processing apparatus after cutting

Info

Publication number: CN110026849B
Application number: CN201910443510.9A
Authority: CN
Inventors: 王俊仙
Original assignee: Wenzhou Blue Star Special Glass Co ltd
Current assignee: Wenzhou Blue Star Special Glass Co ltd
Priority date: 2019-05-27
Filing date: 2019-05-27
Publication date: 2021-01-19
Anticipated expiration: 2039-05-27
Also published as: CN110026849A

Abstract

The invention discloses a cut glass burr processing device which comprises a bottom plate, a rotary platform and a glass centering device, wherein the glass centering device comprises four upright posts fixed on the bottom plate, the upper end of each upright post is hinged with a first waist-shaped batten, the lower end of each first waist-shaped batten is formed with a through groove and a first waist-shaped hole, a second waist-shaped batten is sleeved in the through groove, the upper end of each second waist-shaped batten is fixed with a first pin shaft, the first pin shaft is inserted and sleeved in the first waist-shaped hole, the second waist-shaped batten is formed with a second waist-shaped hole, a second pin shaft is sleeved in the second waist-shaped hole and fixed at the lower end of the through groove, the lower end of the second waist-shaped batten is hinged on a cross, the cross is screwed on a vertically arranged screw rod, and the outer side of the rotary platform is provided with a movable grinding wheel. The glass edge grinding machine can quickly position glass through the synchronous motion of the four first waist-shaped strips, and can conveniently and quickly grind the edge of the outer wall of the glass.

Description

Glass deckle edge processing apparatus after cutting

The technical field is as follows:

the invention relates to the technical field of glass production, in particular to a device for processing rough edges of cut glass.

Background art:

after circle glass is cut down, circle glass's outer wall is more crude and have the burr, need carry out the edging to circle glass's outer wall and handle, and when carrying out the edging to circle glass, need fix a position circle glass, then utilize glass's rotation and emery wheel to carry out the edging to circle glass's outer wall, but in the actual process, when carrying out the center location to circle glass, great skew often can appear, thereby make the transition edging of certain side outer wall of circle glass or the opposite side does not grind at all, the efficiency of edging has not only been reduced so, more probably because size problem makes circle glass not conform to the dimensional requirement.

The invention content is as follows:

the invention aims to overcome the defects of the prior art and provides a cut glass burr treatment device, which can quickly position glass through the synchronous motion of four first waist-shaped strips and can conveniently and quickly edge the outer wall of the glass.

The scheme for solving the technical problems is as follows:

a cut glass burr processing device comprises a bottom plate, wherein a rotating platform for placing glass is arranged right above the bottom plate, a step cylinder is formed on the lower bottom surface of the rotating platform and hinged to a base through a bearing, the base is fixed on the bottom plate through four supporting arms which are uniformly distributed, a first gear is fixed on the step cylinder and meshed with a second gear, the second gear is fixed on a motor shaft of a first motor, and the first motor is fixed on one of the supporting arms; the glass centering device comprises four obliquely arranged stand columns fixed on a bottom plate, the four stand columns and four supporting arms are arranged in a staggered mode, the upper end of each stand column is hinged with a first waist-shaped strip plate, the lower end of each first waist-shaped strip plate is formed with a through groove and a first waist-shaped hole penetrating through the through groove, a second waist-shaped strip plate is sleeved in the through groove, the upper end of the second waist-shaped strip plate is sleeved and fixed with a first pin shaft, the first pin shaft is sleeved in the first waist-shaped hole in a sleeved mode, a second waist-shaped hole is formed in the second waist-shaped strip plate, a second pin shaft is sleeved in the second waist-shaped hole and fixed at the lower end of the through groove, the lower end of the second waist-shaped strip plate is hinged to a cross, the cross is screwed on a vertically arranged screw rod, and the two ends of the screw rod are respectively hinged to the bottom plate and a; a third gear is fixed at the lower end of the screw rod, the third gear is meshed with a fourth gear, the fourth gear is fixed on a motor shaft of a servo motor, and the servo motor is fixedly connected with the bottom plate through a motor support; the outer side of the rotating platform is provided with a grinding wheel, the grinding wheel is fixed on a motor of a second motor, the second motor is fixed on a sliding block, the sliding block is connected on a sliding rail in a sliding mode, the inner end of the sliding block is provided with a limiting block, the limiting block is inserted and sleeved on the sliding rail, a locking screw is screwed on the limiting block, the end portion of the locking screw abuts against the sliding rail, and the sliding rail is fixed on one of the supporting arms; the vacuum cavity is formed inside the rotary platform, a plurality of air holes are formed in the upper plane of the rotary platform and are uniformly distributed in the circumferential direction, the air holes are communicated with the vacuum cavity, an air exhaust opening communicated with the vacuum cavity is formed in the side wall of the rotary platform, and the air exhaust opening is connected with a vacuum pump through an air pipe.

A groove is formed in the upper plane of the rotary platform, a sealing ring is sleeved in the groove, and the upper side wall of the sealing ring is higher than the upper bottom surface of the rotary platform; the sealing ring is positioned on the outer side of the air hole.

And a nylon block is fixed on the inner side wall at the upper end of the first waist-shaped slat.

And a V-shaped groove is formed in the inner side wall of the nylon block.

Four abdicating grooves are formed in the outer wall of the lower end of the base and are respectively arranged in one-to-one correspondence with the four second waist-shaped battens.

The invention has the following outstanding effects: compared with the prior art, the glass edge grinding machine can quickly position glass through the synchronous motion of the four first waist-shaped strips, and can conveniently and quickly grind the edge of the outer wall of the glass.

Description of the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

fig. 3 is a cross-sectional view of the present invention.

The specific implementation mode is as follows:

in the embodiment, as shown in fig. 1 to 3, a cut glass burr processing device comprises a bottom plate 11, a rotating platform 12 for placing glass 9 is arranged right above the bottom plate 11, a step cylinder 121 is formed on the lower bottom surface of the rotating platform 12, the step cylinder 121 is hinged on a base 14 through a bearing 13, the base 14 is fixed on the bottom plate 11 through four uniformly distributed supporting arms 18, a first gear 15 is fixed on the step cylinder 121, the first gear 15 is meshed with a second gear 16, the second gear 16 is fixed on a motor shaft of a first motor 17, and the first motor 17 is fixed on one of the supporting arms 18; the outer side of the rotary platform 12 is provided with a glass centering device 2, the glass centering device 2 comprises four obliquely arranged upright posts 21 fixed on the bottom plate 11, the four upright posts 21 and the four supporting arms 18 are arranged in a staggered manner, the upper end of each upright post 21 is hinged with a first waist-shaped strip plate 22, the lower end of the first waist-shaped strip plate 22 is formed with a through groove 221 and a first waist-shaped hole 222 penetrating through the through groove 221, a second waist-shaped strip plate 23 is sleeved in the through groove 221, the upper end of the second waist-shaped strip plate 23 is sleeved and fixed with a first pin shaft 24, the first pin shaft 24 is inserted and sleeved in the first waist-shaped hole 222, a second waist-shaped hole 231 is formed in the second waist-shaped strip plate 23, a second pin shaft 25 is sleeved in the second waist-shaped hole 231, the second pin shaft 25 is fixed at the lower end of the through groove 221, the lower end of the second waist-shaped strip plate 23 is hinged on a cross 26, the cross 26 is, two ends of the screw 27 are respectively hinged on the bottom plate 11 and the step column 121; a third gear 28 is fixed at the lower end of the screw 27, the third gear 28 is engaged with a fourth gear 29, the fourth gear 29 is fixed on a motor shaft of the servo motor 20, and the servo motor 20 is fixedly connected with the bottom plate 11 through a motor bracket; a grinding wheel 31 is arranged on the outer side of the rotary platform 12, the grinding wheel 31 is fixed on a motor of a second motor 32, the second motor 32 is fixed on a sliding block 33, the sliding block 33 is connected on a sliding rail 34 in a sliding manner, a limiting block 36 is arranged at the inner end of the sliding block 33, the limiting block 36 is sleeved on the sliding rail 34 in a plugging manner, a locking screw 35 is screwed on the limiting block 36, the end part of the locking screw 35 is abutted against the sliding rail 34, and the sliding rail 34 is fixed on one of the supporting arms 18; a vacuum cavity 122 is formed inside the rotary platform 12, a plurality of air holes 123 are formed on the upper plane of the rotary platform 12, the air holes 123 are uniformly distributed on the circumference, the air holes 123 are communicated with the vacuum cavity 122, an air exhaust opening 124 communicated with the vacuum cavity 123 is formed on the side wall of the rotary platform 12, the air exhaust opening 124 is connected with a vacuum pump through an air pipe, and the vacuum pump and the air cylinder are not marked in the drawing.

Furthermore, a groove is formed on the upper plane of the rotating platform 12, a sealing ring 41 is sleeved in the groove, and the upper side wall of the sealing ring 41 is higher than the upper bottom surface of the rotating platform 12; the packing 41 is located outside the air hole 123.

Further, a nylon block 42 is fixed to an inner side wall of an upper end of the first belt-shaped slat 22.

Furthermore, the nylon block 42 has V-shaped grooves formed on the inner side wall thereof.

Furthermore, four receding grooves 141 are formed on the outer wall of the lower end of the base 14, and the four receding grooves 141 are respectively arranged corresponding to the four second waist-shaped slats 23.

The working principle is as follows: firstly, placing the glass 9 to be processed with rough edges on a rotating platform 12; secondly, when the servo motor 20 is started, the servo motor 20 drives the fourth gear 29 to rotate, the fourth gear 29 drives the screw 27 to rotate through the third gear 28, the screw 27 drives the cross 26 to move upwards, the cross 26 drives the lower end of the second belt-shaped slat 23 to move upwards, the second belt-shaped slat 23 drives the lower end of the first belt-shaped slat 22 to approach the rotating platform 12 by using the upper end of the upright post 21 as an axis through the first pin shaft 24 and the second pin shaft 25, the four second belt-shaped slats 23 drive the nylon blocks 42 to approach the glass 9, the nylon blocks 42 firstly touching the glass 9 push the glass 9 to the other side, and finally, when the outer wall of the glass 9 and the four nylon blocks 42 are leant together, namely, the center positioning of the glass 9 is completed, and because the size of the outer diameter of the glass 9 to be processed with burrs is not greatly different, the amount of upward movement of the cross 26 at each time can be made uniform by controlling the number of turns of the motor shaft of the servo motor 20; thirdly, the servo motor 20 is turned over, the nylon block 42 is separated from the glass 9, the glass 9 is placed on the sealing ring 41 of the rotating platform 12, and the sealing ring 41, the lower side wall of the glass 9 and the rotating platform 12 form a sealed space; fourthly, starting a vacuum pump, vacuumizing the vacuum cavity 122 by the vacuum pump through an air cylinder and an air exhaust port 124, vacuumizing a sealing space formed by the vacuum cavity 122 through an air hole 123, the lower side wall of the sealing ring 41, the glass 9 and the rotary platform 12, driving the sealing ring 41 to compress and deform by the glass, and finally adsorbing the glass on the rotary platform 12; fifthly, the first motor 17 is started, the first motor 17 drives the second gear 16 to rotate, the second gear 16 drives the first gear 15 to rotate, the first gear 15 drives the rotary platform 12 to move, the rotary platform 12 drives the glass 9 to rotate, the second motor 32 is started, the second motor 32 drives the grinding wheel 31 to rotate, the second motor 32 is pushed to approach the glass 9, the second motor 32 drives the grinding wheel 31 to approach the glass, the glass is subjected to edging treatment after the grinding wheel 31 contacts with the glass, the second motor 32 drives the sliding block 33 to move along the sliding rail 34, when the sliding block 33 touches the limiting block 36, the second motor 32 stops moving inwards, the position of the limiting block 36 can be adjusted by unscrewing the locking screw 35, and the final size of the glass after edging can be determined.

Finally, the above embodiments are only for illustrating the present invention and not for limiting the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the scope of the present invention should be defined by the claims.

Claims

1. The utility model provides a glass deckle edge processing apparatus after cutting, includes bottom plate (11), its characterized in that: a rotating platform (12) used for placing glass (9) is arranged right above the bottom plate (11), a step cylinder (121) is formed on the lower bottom surface of the rotating platform (12), the step cylinder (121) is hinged to a base (14) through a bearing (13), the base (14) is fixed on the bottom plate (11) through four support arms (18) which are uniformly distributed, a first gear (15) is fixed on the step cylinder (121), the first gear (15) is meshed with a second gear (16), the second gear (16) is fixed on a motor shaft of a first motor (17), and the first motor (17) is fixed on one support arm (18); the glass centering device (2) is arranged on the outer side of the rotary platform (12), the glass centering device (2) comprises four obliquely arranged stand columns (21) fixed on a bottom plate (11), the four stand columns (21) and four supporting arms (18) are arranged in a staggered manner, the upper end of each stand column (21) is hinged with a first waist-shaped strip plate (22), the lower end of each first waist-shaped strip plate (22) is provided with a through groove (221) and a first waist-shaped hole (222) penetrating through the through groove (221), a second waist-shaped strip plate (23) is sleeved in the through groove (221), the upper end of each second waist-shaped strip plate (23) is sleeved and fixed with a first pin shaft (24), the first pin shaft (24) is inserted and sleeved in the first waist-shaped hole (222), a second waist-shaped hole (231) is formed in the second waist-shaped strip plate (23), a second pin shaft (25) is sleeved in the second waist-shaped hole (231), and the second pin shaft (25) is fixed at the lower end of the through, the lower end of the second waist-shaped strip plate (23) is hinged to a cross (26), the cross (26) is in threaded connection with a vertically arranged screw (27), and two ends of the screw (27) are respectively hinged to the bottom plate (11) and the step column (121); a third gear (28) is fixed at the lower end of the screw rod (27), the third gear (28) is meshed with a fourth gear (29), the fourth gear (29) is fixed on a motor shaft of the servo motor (20), and the servo motor (20) is fixedly connected with the bottom plate (11) through a motor support; the grinding wheel (31) is arranged on the outer side of the rotary platform (12), the grinding wheel (31) is fixed on a motor of a second motor (32), the second motor (32) is fixed on a sliding block (33), the sliding block (33) is connected to a sliding rail (34) in a sliding mode, a limiting block (36) is arranged at the inner end of the sliding block (33), the limiting block (36) is inserted and sleeved on the sliding rail (34), a locking screw (35) is connected to the limiting block (36) in a threaded mode, the end portion of the locking screw (35) abuts against the sliding rail (34), and the sliding rail (34) is fixed on one supporting arm (18); a vacuum cavity (122) is formed inside the rotary platform (12), a plurality of air holes (123) which are uniformly distributed on the circumference are formed on the upper plane of the rotary platform (12), the air holes (123) are communicated with the vacuum cavity (122), an air suction opening (124) communicated with the vacuum cavity is formed on the side wall of the rotary platform (12), and the air suction opening (124) is connected with a vacuum pump through an air pipe;

four abdicating grooves (141) are formed in the outer wall of the lower end of the base (14), and the four abdicating grooves (141) are respectively arranged in one-to-one correspondence with the four second waist-shaped battens (23).

2. The apparatus according to claim 1, wherein: a groove is formed in the upper plane of the rotary platform (12), a sealing ring (41) is sleeved in the groove, and the upper side wall of the sealing ring (41) is higher than the upper bottom surface of the rotary platform (12); the sealing ring (41) is positioned outside the air hole (123).

3. The apparatus according to claim 1, wherein: a nylon block (42) is fixed on the inner side wall of the upper end of the first waist-shaped slat (22).

4. A cut glass burr processing apparatus according to claim 3, wherein: and a V-shaped groove is formed in the inner side wall of the nylon block (42).